TY - JOUR
T1 - The <em>lss</em> Supernodulation Mutant of <em>Medicago truncatula</em> Reduces Expression of the <em>SUNN</em> Gene
JF - Plant Physiology
JO - Plant Physiol.
SP - 1390
LP - 1402
M3 - 10.1104/pp.110.164889
VL - 154
IS - 3
AU - Schnabel, Elise
AU - Mukherjee, Arijit
AU - Smith, Lucinda
AU - Kassaw, Tessema
AU - Long, Sharon
AU - Frugoli, Julia
Y1 - 2010/11/01
UR - http://www.plantphysiol.org/content/154/3/1390.abstract
N2 - The number of nodules that form in a legume when interacting with compatible rhizobia is regulated by the plant. We report the identification of a mutant in nodule regulation in Medicago truncatula, like sunn supernodulator (lss), which displays shoot-controlled supernodulation and short roots, similar to sunn mutants. In contrast with the sunn-1 mutant, nodulation in the lss mutant is more extensive and is less sensitive to nitrate and ethylene, resembling the sunn-4 presumed null allele phenotype. Although the lss locus maps to the SUNN region of linkage group 4 and sunn and lss do not complement each other, there is no mutation in the genomic copy of the SUNN gene or in the 15-kb surrounding region in the lss mutant. However, expression of the SUNN gene in the shoots of lss plants is greatly reduced compared with wild-type plants. Analysis of cDNA from plants heterozygous for lss indicates that lss is a cis-acting factor affecting the expression of SUNN, and documented reversion events show it to be unstable, suggesting a possible reversible DNA rearrangement or an epigenetic change in the lss mutant. Assessment of the SUNN promoter revealed low levels of cytosine methylation in the 700-bp region proximal to the predicted transcription start site in both wild-type and lss plants, indicating that promoter hypermethylation is not responsible for the suppression of SUNN expression in lss. Thus, lss represents either a distal novel locus within the mapped region affecting SUNN expression or an uncharacterized epigenetic modification at the SUNN locus.
ER -